In a vertical retrace interval, a pre-charge potential or a signal potential is applied to each polarity for AC driving liquid crystal at least once each, so as to maintain fluctuations in pixel potential between the positive polarity side and the negative polarity side uniform, and minimum required potentials are supplied to the data signal line, thereby suppressing decrease in image quality without significantly increasing power consumption.
Legal claims defining the scope of protection, as filed with the USPTO.
1. An image display device, comprising: a plurality of pixels disposed in a matrix form; a plurality of data signal lines disposed in respective columns of the pixels; a plurality of scanning signal lines disposed in respective rows of the pixels; a data signal line drive circuit for driving said plurality of data signal lines by outputting thereto a signal potential in synchronization with a predetermined timing signal; a scanning signal line drive circuit for driving said plurality of scanning signal lines by outputting thereto a scanning signal in synchronization with a predetermined timing signal; a display section including said plurality of pixels, scanning signal lines and data signal lines, for displaying an image based on a video signal inputted to the data signal line drive circuit; and a pre-charging circuit for supplying a predetermined pre-charge potential to said plurality of data signal lines according to the pre-charge control signal from an external section at a predetermined interval, wherein in a vertical retrace interval, the pre-charge potentials of positive and negative polarities are each supplied in a lump sum to said data signal line from said pre-charging circuit at least once.
2. The image display device as set forth in claim 1 , wherein: said display section includes liquid crystals, and in the vertical retrace interval, the pre-charge potential is supplied from said pre-charging circuit to said data signal line at least once with respect to each polarity of an AC voltage for driving liquid crystals.
3. The image display device as set forth in claim 1 , wherein: said display section includes liquid crystals, and in the vertical retrace interval, the pre-charge potential of a potential that is equivalent to a maximum amplitude value of the video signal of the positive polarity and to a maximum amplitude value of the video signal of negative polarity in AC driving the liquid crystals is supplied once to each data signal line from said pre-charging circuit.
4. The image display device as set forth in claim 1 , wherein: said pre-charge potential to be inputted to said pre-charging circuit for supplying it from said pre-charging circuit to said data signal line is an AC potential of 1 horizontal scan period.
5. The image display device as set forth in claim 1 , wherein: said display section includes liquid crystals, and in the vertical retrace interval, a pre-charge potential of not less than 50 percent of a maximum value of the video signal of positive polarity and not less than 50 percent of the video signal of negative polarity in AC driving the liquid crystals is supplied from said pre-charging circuit to each data signal line.
6. The image display device as set forth in claim 1 , wherein: effective voltage values of respective levels supplied to said data signal line during the vertical retrace interval according to the pre-charge potential or the vertical retrace interval supply potential are equivalent.
7. The image display device as set forth in claim 1 , wherein: said display section includes liquid crystals, and the vertical retrace interval supplying potential is an AC potential of 1 horizontal scan period.
8. An image display device, comprising: a plurality of pixels arranged in a matrix form; a plurality of data signal lines arranged in respective columns of the pixels; a plurality of scanning signal lines arranged in respective rows of the pixels; a data signal line drive circuit for driving said plurality of data signal lines by outputting thereto a signal potential in synchronization with a predetermined timing signal; a scanning signal line drive circuit for driving said plurality of scanning signal lines by outputting thereto a scanning signal in synchronization with a predetermined timing signal; and a display section including said plurality of pixels, scanning signal lines and data signal lines, for displaying an image based on a video signal to be inputted to the data signal line drive circuit, wherein said data signal line drive circuit supplies a signal potential to said plurality of data signal lines, samples a video signal to which the vertical retrace interval supply potential is added by supplying a data sampling start signal to said data signal line drive circuit in the vertical retrace interval, and supplies a signal potential based on the sampling at least once.
9. The image display device as set forth in claim 8 , wherein: said display section includes liquid crystals, and in the vertical retrace interval, the vertical retrace interval supplying potential to be added to the video signal is varied with respect to each polarity at least once in AC driving liquid crystals, and a signal potential resulting from sampling the video signal is supplied from the data signal line drive circuit to each data signal line.
10. The image display device as set forth in claim 8 , wherein: said display section includes liquid crystals, and the vertical retrace interval supply potential is equivalent to a maximum amplitude value of the video signal of the positive polarity and to a maximum amplitude value of the video signal of negative polarity in AC driving the liquid crystals.
11. The image display device as set forth in claim 8 , wherein: said display section includes liquid crystals, and in the vertical retrace interval, the vertical retrace interval supply interval is not less than 50 percent of a maximum value of the video signal of positive polarity and not less than 50 percent of the video signal of negative polarity in AC driving the liquid crystals.
12. The image display device as set forth in claim 8 , wherein: effective voltage values of respective levels supplied to said data signal line during the vertical retrace interval according to the pre-charge potential, the vertical retrace interval supply potential or a signal potential are equivalent.
13. A driving method for an image display device, which comprises: a plurality of pixels arranged in a matrix form; a plurality of data signal lines arranged in respective columns of the pixels; a plurality of scanning signal lines arranged in respective rows of the pixels; a data signal line drive circuit for driving said plurality of data signal lines by outputting thereto a signal potential in synchronization with a predetermined timing signal; a scanning signal line drive circuit for driving said plurality of scanning signal lines by outputting thereto a scanning signal in synchronization with a predetermined timing signal; a display section including said plurality of pixels, scanning signal lines and data signal lines, for displaying an image based on a video signal to be inputted to the data signal line drive circuit; and a pre-charging circuit for supplying a predetermined pre-charge potential to said plurality of data signal lines according to the pre-charge control signal from an external section in a predetermined interval, said driving method comprises the step of: supplying in a lump sum in a vertical retrace interval, the pre-charge potentials of positive and negative polarities to said data signal line from said pre-charging circuit at least once.
14. The driving method as set forth in claim 13 , wherein: said display section includes liquid crystals, and in the vertical retrace interval, the pre-charge potential is supplied to respective polarities at least once in AC driving the liquid crystals.
15. The driving method as set forth in claim 13 , wherein: said display section includes liquid crystals, and in the vertical retrace interval, the pre-charge potential supplied to each data signal line is equivalent to a maximum amplitude value of the video signal of the positive polarity and to a maximum amplitude value of the video signal of negative polarity in AC driving the liquid crystals.
16. The driving method as set forth in claim 13 , wherein: the pre-charge potential or the vertical retrace interval supplying potential in the vertical retrace interval is an AC potential of 1 horizontal scan period.
17. The driving method as set forth in claim 13 , wherein: said display section includes liquid crystals, and in the vertical retrace interval, the pre-charge potential to be supplied to each data signal line is not less than 50 percent of a maximum value of the video signal of positive polarity and not less than 50 percent of the video signal of negative polarity in AC driving the liquid crystals.
18. A driving method of an image display device which comprises: a plurality of pixels arranged in a matrix form; a plurality of data signal lines arranged in respective columns of the pixels; a plurality of scanning signal lines arranged in respective rows of the pixels; a data signal line drive circuit for driving said plurality of data signal lines by outputting thereto a signal potential in synchronization with a predetermined timing signal; a scanning signal line drive circuit for driving said plurality of scanning signal lines by outputting thereto a scanning signal in synchronization with a predetermined timing signal; and a display section including said plurality of pixels, scanning signal lines and data signal lines, for displaying an image based on a video signal to be inputted to the data signal line drive circuit, said driving method comprising the step of: supplying a signal potential to said plurality of data signal lines by said data signal line drive circuit, and sampling a video signal to which vertical retrace interval supply potential is added by supplying a data sampling start signal to said data signal line drive circuit in the vertical retrace interval, so as to supply a signal potential based on the sampling to said data signal line at least once.
19. The liquid crystal display device as set forth in claim 18 , wherein: said display section includes liquid crystals, and in the vertical retrace interval, the pre-charge potential or signal potential is supplied to respective polarities at least once in AC driving the liquid crystals.
20. The driving method as set forth in claim 18 , wherein: said display section includes liquid crystals, and in the vertical retrace interval, the pre-charge potential or the signal potential supplied to each data signal line is equivalent to a maximum amplitude value of the video signal of the positive polarity and to a maximum amplitude value of the video signal of negative polarity in AC driving the liquid crystals.
21. The driving method as set forth in claim 18 , wherein: the pre-charge potential or the vertical retrace interval supplying potential in the vertical retrace interval is an AC potential of 1 horizontal scan period.
22. The driving method as set forth in claim 18 , wherein: said display section includes liquid crystals, and in the vertical retrace interval, the pre-charge potential or the signal potential to be supplied to each data signal line is not less than 50 percent of a maximum value of the video signal of positive polarity and not less than 50 percent of the video signal of negative polarity in AC driving the liquid crystals.
23. An image display device, comprising: a plurality of pixels disposed in a matrix form; a plurality of data signal lines disposed in respective columns of the pixels; a plurality of scanning signal lines disposed in respective rows of the pixels; a data signal line drive circuit for driving said plurality of data signal lines by outputting thereto a signal potential in synchronization with a predetermined timing signal; a scanning signal line drive circuit for driving said plurality of scanning signal lines by outputting thereto a scanning signal in synchronization with a predetermined timing signal; a display section including said plurality of pixels, scanning signal lines and data signal lines, for displaying an image based on a video signal inputted to the data signal line drive circuit, wherein the display section includes liquid crystals; and a pre-charging circuit for supplying a predetermined pre-charge potential to said plurality of data signal lines according to the pre-charge control signal from an external section at a predetermined interval, wherein in a vertical retrace interval, the pre-charge potential of a potential that is equivalent to a maximum amplitude value of the video signal of positive polarity and to a maximum amplitude value of the video signal of negative polarity in AC driving the liquid crystals is supplied once to each data signal line from said pre-charging circuit.
24. An image display device, comprising: a plurality of pixels disposed in a matrix form; a plurality of data signal lines disposed in respective columns of the pixels; a plurality of scanning signal lines disposed in respective rows of the pixels; a data signal line drive circuit for driving said plurality of data signal lines by outputting thereto a signal potential in synchronization with a predetermined timing signal; a scanning signal line drive circuit for driving said plurality of scanning signal lines by outputting thereto a scanning signal in synchronization with a predetermined timing signal; a display section including said plurality of pixels, scanning signal lines and data signal lines, for displaying an image based on a video signal inputted to the data signal line drive circuit, wherein the display section includes liquid crystals; and a pre-charging circuit for supplying a predetermined pre-charge potential to said plurality of data signal lines according to the pre-charge control signal from an external section at a predetermined interval, wherein in a vertical retrace interval, the pre-charge potential of not less than 50 percent of a maximum value of the video signal of positive polarity and not less than 50 percent of the video signal of negative polarity in AC driving the liquid crystals is supplied from said pre-charging circuit to each data signal line.
25. A driving method for an image display device, which comprises: a plurality of pixels arranged in a matrix form; a plurality of data signal lines arranged in respective columns of the pixels; a plurality of scanning signal lines arranged in respective rows of the pixels; a data signal line drive circuit for driving said plurality of data signal lines by outputting thereto a signal potential in synchronization with a predetermined timing signal; a scanning signal line drive circuit for driving said plurality of scanning signal lines by outputting thereto a scanning signal in synchronization with a predetermined timing signal; a display section including said plurality of pixels, scanning signal lines and data signal lines, for displaying an image based on a video signal to be inputted to the data signal line drive circuit, wherein the display section includes liquid crystals; and a pre-charging circuit for supplying a predetermined pre-charge potential to said plurality of data signal lines according to the pre-charge control signal from an external section in a predetermined interval, said driving method comprises the step of: supplying in a vertical retrace interval, the pre-charge potential to said data signal line from said pre-charging circuit at least once, wherein the pre-charge potential supplied to each data signal line is equivalent to a maximum amplitude value of the video signal of positive polarity and to a maximum amplitude value of the video signal of negative polarity in AC driving the liquid crystals.
26. A driving method for an image display device, which comprises: a plurality of pixels arranged in a matrix form; a plurality of data signal lines arranged in respective columns of the pixels; a plurality of scanning signal lines arranged in respective rows of the pixels; a data signal line drive circuit for driving said plurality of data signal lines by outputting thereto a signal potential in synchronization with a predetermined timing signal; a scanning signal line drive circuit for driving said plurality of scanning signal lines by outputting thereto a scanning signal in synchronization with a predetermined timing signal; a display section including said plurality of pixels, scanning signal lines and data signal lines, for displaying an image based on a video signal to be inputted to the data signal line drive circuit, wherein the display section includes liquid crystals; and a pre-charging circuit for supplying a predetermined pre-charge potential to said plurality of data signal lines according to the pre-charge control signal from an external section in a predetermined interval, said driving method comprises the step of: supplying in a vertical retrace interval, the pre-charge potential to said data signal line from said pre-charging circuit at least once, wherein the pre-charge potential to be supplied to each data signal line is not less than 50 percent of a maximum value of the video signal of positive polarity and not less than 50 percent of the video signal of negative polarity in AC driving the liquid crystals.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
November 9, 2000
May 9, 2006
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.